/* * Copyright (c) 2009 Daniel Mack <daniel@caiaq.de> * Copyright (C) 2010 Freescale Semiconductor, Inc. * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation; either version 2 of the License, or (at your * option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * for more details. */ #include <linux/platform_device.h> #include <linux/io.h> #include <linux/platform_data/usb-ehci-mxc.h> #include "hardware.h" #define MXC_OTG_OFFSET 0 #define MXC_H1_OFFSET 0x200 #define MXC_H2_OFFSET 0x400 /* USB_CTRL */ #define MXC_OTG_UCTRL_OWIE_BIT (1 << 27) /* OTG wakeup intr enable */ #define MXC_OTG_UCTRL_OPM_BIT (1 << 24) /* OTG power mask */ #define MXC_H1_UCTRL_H1UIE_BIT (1 << 12) /* Host1 ULPI interrupt enable */ #define MXC_H1_UCTRL_H1WIE_BIT (1 << 11) /* HOST1 wakeup intr enable */ #define MXC_H1_UCTRL_H1PM_BIT (1 << 8) /* HOST1 power mask */ /* USB_PHY_CTRL_FUNC */ #define MXC_OTG_PHYCTRL_OC_POL_BIT (1 << 9) /* OTG Polarity of Overcurrent */ #define MXC_OTG_PHYCTRL_OC_DIS_BIT (1 << 8) /* OTG Disable Overcurrent Event */ #define MXC_H1_OC_POL_BIT (1 << 6) /* UH1 Polarity of Overcurrent */ #define MXC_H1_OC_DIS_BIT (1 << 5) /* UH1 Disable Overcurrent Event */ #define MXC_OTG_PHYCTRL_PWR_POL_BIT (1 << 3) /* OTG Power Pin Polarity */ /* USBH2CTRL */ #define MXC_H2_UCTRL_H2UIE_BIT (1 << 8) #define MXC_H2_UCTRL_H2WIE_BIT (1 << 7) #define MXC_H2_UCTRL_H2PM_BIT (1 << 4) #define MXC_USBCMD_OFFSET 0x140 /* USBCMD */ #define MXC_UCMD_ITC_NO_THRESHOLD_MASK (~(0xff << 16)) /* Interrupt Threshold Control */ int mx51_initialize_usb_hw(int port, unsigned int flags) { unsigned int v; void __iomem *usb_base; void __iomem *usbotg_base; void __iomem *usbother_base; int ret = 0; usb_base = ioremap(MX51_USB_OTG_BASE_ADDR, SZ_4K); if (!usb_base) { printk(KERN_ERR "%s(): ioremap failed\n", __func__); return -ENOMEM; } switch (port) { case 0: /* OTG port */ usbotg_base = usb_base + MXC_OTG_OFFSET; break; case 1: /* Host 1 port */ usbotg_base = usb_base + MXC_H1_OFFSET; break; case 2: /* Host 2 port */ usbotg_base = usb_base + MXC_H2_OFFSET; break; default: printk(KERN_ERR"%s no such port %d\n", __func__, port); ret = -ENOENT; goto error; } usbother_base = usb_base + MX5_USBOTHER_REGS_OFFSET; switch (port) { case 0: /*OTG port */ if (flags & MXC_EHCI_INTERNAL_PHY) { v = __raw_readl(usbother_base + MXC_USB_PHY_CTR_FUNC_OFFSET); if (flags & MXC_EHCI_OC_PIN_ACTIVE_LOW) v |= MXC_OTG_PHYCTRL_OC_POL_BIT; else v &= ~MXC_OTG_PHYCTRL_OC_POL_BIT; if (flags & MXC_EHCI_POWER_PINS_ENABLED) { /* OC/USBPWR is used */ v &= ~MXC_OTG_PHYCTRL_OC_DIS_BIT; } else { /* OC/USBPWR is not used */ v |= MXC_OTG_PHYCTRL_OC_DIS_BIT; } if (flags & MXC_EHCI_PWR_PIN_ACTIVE_HIGH) v |= MXC_OTG_PHYCTRL_PWR_POL_BIT; else v &= ~MXC_OTG_PHYCTRL_PWR_POL_BIT; __raw_writel(v, usbother_base + MXC_USB_PHY_CTR_FUNC_OFFSET); v = __raw_readl(usbother_base + MXC_USBCTRL_OFFSET); if (flags & MXC_EHCI_WAKEUP_ENABLED) v |= MXC_OTG_UCTRL_OWIE_BIT;/* OTG wakeup enable */ else v &= ~MXC_OTG_UCTRL_OWIE_BIT;/* OTG wakeup disable */ if (flags & MXC_EHCI_POWER_PINS_ENABLED) v &= ~MXC_OTG_UCTRL_OPM_BIT; else v |= MXC_OTG_UCTRL_OPM_BIT; __raw_writel(v, usbother_base + MXC_USBCTRL_OFFSET); } break; case 1: /* Host 1 */ /*Host ULPI */ v = __raw_readl(usbother_base + MXC_USBCTRL_OFFSET); if (flags & MXC_EHCI_WAKEUP_ENABLED) { /* HOST1 wakeup/ULPI intr enable */ v |= (MXC_H1_UCTRL_H1WIE_BIT | MXC_H1_UCTRL_H1UIE_BIT); } else { /* HOST1 wakeup/ULPI intr disable */ v &= ~(MXC_H1_UCTRL_H1WIE_BIT | MXC_H1_UCTRL_H1UIE_BIT); } if (flags & MXC_EHCI_POWER_PINS_ENABLED) v &= ~MXC_H1_UCTRL_H1PM_BIT; /* HOST1 power mask unused*/ else v |= MXC_H1_UCTRL_H1PM_BIT; /* HOST1 power mask used*/ __raw_writel(v, usbother_base + MXC_USBCTRL_OFFSET); v = __raw_readl(usbother_base + MXC_USB_PHY_CTR_FUNC_OFFSET); if (flags & MXC_EHCI_OC_PIN_ACTIVE_LOW) v |= MXC_H1_OC_POL_BIT; else v &= ~MXC_H1_OC_POL_BIT; if (flags & MXC_EHCI_POWER_PINS_ENABLED) v &= ~MXC_H1_OC_DIS_BIT; /* OC is used */ else v |= MXC_H1_OC_DIS_BIT; /* OC is not used */ __raw_writel(v, usbother_base + MXC_USB_PHY_CTR_FUNC_OFFSET); v = __raw_readl(usbotg_base + MXC_USBCMD_OFFSET); if (flags & MXC_EHCI_ITC_NO_THRESHOLD) /* Interrupt Threshold Control:Immediate (no threshold) */ v &= MXC_UCMD_ITC_NO_THRESHOLD_MASK; __raw_writel(v, usbotg_base + MXC_USBCMD_OFFSET); break; case 2: /* Host 2 ULPI */ v = __raw_readl(usbother_base + MXC_USBH2CTRL_OFFSET); if (flags & MXC_EHCI_WAKEUP_ENABLED) { /* HOST1 wakeup/ULPI intr enable */ v |= (MXC_H2_UCTRL_H2WIE_BIT | MXC_H2_UCTRL_H2UIE_BIT); } else { /* HOST1 wakeup/ULPI intr disable */ v &= ~(MXC_H2_UCTRL_H2WIE_BIT | MXC_H2_UCTRL_H2UIE_BIT); } if (flags & MXC_EHCI_POWER_PINS_ENABLED) v &= ~MXC_H2_UCTRL_H2PM_BIT; /* HOST2 power mask unused*/ else v |= MXC_H2_UCTRL_H2PM_BIT; /* HOST2 power mask used*/ __raw_writel(v, usbother_base + MXC_USBH2CTRL_OFFSET); break; } error: iounmap(usb_base); return ret; }